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This reprint gathers works on various coating materials and technologies aimed at the improvement of materials’ properties, such as corrosion resistance or biocompatibility. Systematic studies demonstrate how the structure and morphology of coatings can change the mechanical, chemical and various functional properties of materials. The reprint contributes to the better understanding of various phenomena induced by metal, ceramic or composite coatings in core materials and, thus, it can help in the more rational design of the selected material’s properties in future studies by the application of coatings.

Research & information: general --- Physics --- cold spray --- scanning electron microscope --- electrochemical workstation --- neutral salt spray test --- photocatalysis --- friction and wear --- composite coatings --- plasma electrolytic oxidation --- Al2O3 --- energy transfer --- photoluminescence --- Ce3+/Eu2+ --- sliding wear --- cold work die steel --- HVOF --- WC-CoCr --- cermet --- wet welding --- underwater welding --- abrasive wear resistance --- high-strength low-alloy steel --- hardness measurements --- metal–mineral abrasion --- ultrathin films --- infrared spectroscopy --- detection limit --- ZnS --- atomic layer deposition (ALD) --- molecular layer deposition (MLD) --- phosphoric acid --- sulfuric acid --- sulfosalicylic acid --- oxalic acid --- malonic acid --- tartaric acid --- citric acid --- 0.1 and 0.6 molar solution --- porous anodic alumina --- anodizing --- chemical vapor deposition --- nickel alloys --- aluminide coatings --- high temperature fatigue --- creep --- biocompatibility --- corrosion protection --- wear resistance --- ceramic coatings --- plasma electrolytic oxidation (PEO) coating --- microstructure --- growth mechanism --- zirconium and zirconium-based alloys --- iron anchor --- corrosion product --- iron relics --- corrosion mechanism --- n/a --- metal-mineral abrasion

Choose an application

• Reference Manager
• EndNote
• RefWorks (Direct export to RefWorks)

This reprint gathers works on various coating materials and technologies aimed at the improvement of materials’ properties, such as corrosion resistance or biocompatibility. Systematic studies demonstrate how the structure and morphology of coatings can change the mechanical, chemical and various functional properties of materials. The reprint contributes to the better understanding of various phenomena induced by metal, ceramic or composite coatings in core materials and, thus, it can help in the more rational design of the selected material’s properties in future studies by the application of coatings.

Research & information: general --- Physics --- cold spray --- scanning electron microscope --- electrochemical workstation --- neutral salt spray test --- photocatalysis --- friction and wear --- composite coatings --- plasma electrolytic oxidation --- Al2O3 --- energy transfer --- photoluminescence --- Ce3+/Eu2+ --- sliding wear --- cold work die steel --- HVOF --- WC-CoCr --- cermet --- wet welding --- underwater welding --- abrasive wear resistance --- high-strength low-alloy steel --- hardness measurements --- metal-mineral abrasion --- ultrathin films --- infrared spectroscopy --- detection limit --- ZnS --- atomic layer deposition (ALD) --- molecular layer deposition (MLD) --- phosphoric acid --- sulfuric acid --- sulfosalicylic acid --- oxalic acid --- malonic acid --- tartaric acid --- citric acid --- 0.1 and 0.6 molar solution --- porous anodic alumina --- anodizing --- chemical vapor deposition --- nickel alloys --- aluminide coatings --- high temperature fatigue --- creep --- biocompatibility --- corrosion protection --- wear resistance --- ceramic coatings --- plasma electrolytic oxidation (PEO) coating --- microstructure --- growth mechanism --- zirconium and zirconium-based alloys --- iron anchor --- corrosion product --- iron relics --- corrosion mechanism --- cold spray --- scanning electron microscope --- electrochemical workstation --- neutral salt spray test --- photocatalysis --- friction and wear --- composite coatings --- plasma electrolytic oxidation --- Al2O3 --- energy transfer --- photoluminescence --- Ce3+/Eu2+ --- sliding wear --- cold work die steel --- HVOF --- WC-CoCr --- cermet --- wet welding --- underwater welding --- abrasive wear resistance --- high-strength low-alloy steel --- hardness measurements --- metal-mineral abrasion --- ultrathin films --- infrared spectroscopy --- detection limit --- ZnS --- atomic layer deposition (ALD) --- molecular layer deposition (MLD) --- phosphoric acid --- sulfuric acid --- sulfosalicylic acid --- oxalic acid --- malonic acid --- tartaric acid --- citric acid --- 0.1 and 0.6 molar solution --- porous anodic alumina --- anodizing --- chemical vapor deposition --- nickel alloys --- aluminide coatings --- high temperature fatigue --- creep --- biocompatibility --- corrosion protection --- wear resistance --- ceramic coatings --- plasma electrolytic oxidation (PEO) coating --- microstructure --- growth mechanism --- zirconium and zirconium-based alloys --- iron anchor --- corrosion product --- iron relics --- corrosion mechanism